DE10202702A1 - Heating device used as a room heater, water heater or boiler comprises an air inlet line with a wedge-shaped section partly filled with sound-absorbing/sound-damping material - Google Patents

Abstract

Heating device (18) comprises a housing (24) into which an air inlet line (30) and an exhaust gas outlet line (17) open. A fuel/air mixture branch (9), preferably provided with a fuel fitting, is joined to the air inlet line. The air inlet line is provided on its inlet side with a tubular extension (22) and has a wedge-shaped section (7) at least partly filled with sound-absorbing or sound-damping material (2) and having a tapered end oriented in the flow direction of the air inlet line. Preferred Features: The wedge-shaped section has at least one region (6) of more or less constant cross-section which is partly filled with sound-absorbing material.

Description

The present invention relates to a device for avoiding thermoacoustic vibrations in heaters according to the introductory part of the independent claim. The invention can be used for all devices manufacturer-independent - can be used.

A large number of such facilities have become known but could not prevail in the market, partly because of the costs and partly because of the insufficient effectiveness.

The invention is therefore based on the task of creating such thermoacoustics vibrations caused by a more or less loud hum or whistle burner-operated heaters installed in living rooms make them noticeable, avoid them or at least dampen them.

The solution to the problem lies primarily in the characteristics of the independent approach ches, this invention being characterized by the features of the dependent claims is supported.

The effect that can be achieved by the invention lies in a significantly quiet operation of the After that, heaters designed, be it room heaters, hot water flow heaters zer, circulating water heater with and without domestic water heating, directly heated Storage and even boiler with and without suction or pressure blower, so that this Devices without unreasonable noise pollution in apartments and living rooms from Houses can be put into operation.

For this purpose, the invention on the air intake pipe or the fuel valve of the Heater plugged in or installed. The invention works best with gas calorific value devices in which this is plugged into a venturi opening of the gas valve. because with the measure works, it can be carried out according to one of the six games of the invention can be carried out as follows:

The invention is explained below with reference to FIGS. 1 to 6 of the drawings. Show it:

Fig. 1 shows a heating device in a schematic representation,

FIG. 2 is a variant of this,

FIG. 3 is a further variant,

Fig. 4 shows a third variant,

Fig. 5 is a spatial view of a possible practical implementation and

Fig. 6 shows a fifth variant.

In the six figures, the same reference numerals each mean the same individual units.  

A gas or oil-heated heater 18 has an inlet 19 of an air supply line 30 for air from the atmosphere on the upper right side of its housing 24 and an outlet 20 on the lower left side. In the direction of the air flow, the inlet 19 is followed by a mixture formation section or fuel fitting 9 , into which solid, liquid or gaseous fuel is added via a connection 8 to the air sucked in via the inlet 19 . The fuel-air mixture formed in the mixture formation section 9 is fed via a blower 10 and a connection section 11 to a burner 12 , which may be in the form of a burner plate, for example, and burns there in the combustion chamber 13 of the heater 18 .

Fig. 1 shows an example of a heater 18 with a burn from top to bottom of the burner 12. However, the invention can be used in a heater with a burner 12 burning in any direction. The combustion chamber 13 is followed by a heat exchanger 14 , via which the thermal energy generated by the flame can be transferred to a medium, for example water, and made available to a heating circuit, for example in a house. Below the Wärmetau exchanger 14, a condensate tray 15 or an exhaust deflector 15 is provided the heater 18 on the housing 24th A condensate pan is required for a condensing boiler in which the exhaust gas from the burner is cooled below the condensation point when passing through the heat exchanger, an exhaust gas deflector for all other units. In the case of a burner of another design, the condensate pan or exhaust gas deflection 15 can also be omitted. The effect of the invention is not affected by this. In the case of the heater being designed as a condensing boiler, a condensate drain 16 follows after the condensate pan 15 in the direction of flow of the exhaust gases or the condensate, and then a chimney 17 with atmospheric outlet opening 20 .

According to the embodiment shown in FIG. 1, a tubular extension 22 is plugged in, mounted or otherwise attached upstream of the inlet 19 . Through this, the previous inlet 19 is now extended and thus the air required for combustion is sucked in through the new inlet 21 . Such pipe extensions are already known in practice and prove to dampen combustion vibrations as moderately suitable to unsuitable.

It looks different if a wedge-shaped expansion 7 is introduced into the tubular extension 22 , which is filled with a sound-absorbing or similar sound-absorbing material 2 . The cross-sectional shape (perpendicular to the Zei chenblatteee) of the wedge-shaped extension 7 can be any, for example semicircular, square, rectangular, triangular, semi-oval, etc. It is only essential that the extension 7 , starting with a level 25 , one-sided the cross cut the tubular extension 22 in the direction of the opening 19 , ie in the direction of flow, steadily reduced. A further extension 6 of the wedge-shaped extension 7 with a more or less constant cross-section 26 has proven to be favorable or conducive to damping, which should also be filled with sound-absorbing material 3 and which is located upstream of the stage 25 , that is, it forms at the beginning. The cross section of the extension 6 can also be of any design, but should suitably correspond to the shape of the extension 7 . Instead of a step 25 , another transition from the wide end of the wedge in the direction of the inlet 21 can also take place.

Furthermore, the wedge-shaped extension 7 can be attached not only on one side, but also, as shown in Fig. 2, on two opposite sides, on several sides with interruptions or even all around with cylindrical but also differently designed pipe opening 27 in the central axis 28 of the tubular extension 22 , through which the combustion air is sucked in. In order to achieve a good effect, the length of the wedge-shaped extension 7 should have at least five times the root of the cross section of the tubular extension 22 . The wall of the extension 7 should preferably be made of dimensionally stable plastic. However, a version made of metal or a similar material is also possible. In any case, a dimensionally stable wall has proven to be structurally favorable. Another version of the wall is also conceivable.

In order to achieve the full damping effect on the thermoacoustic vibrations, the extension 7 must be installed as close as possible to the mixture formation section 9 , that is, as close to the inlet 19 of the fuel valve 9 as possible. Furthermore, the length 33 of the tubular section 1 of the tubular extension 22 must be greater than the length 31 of the tubular section 5 , which corresponds to the distance between the end of the wedge-shaped extension 7 and the inlet 19 of the fuel valve 9 . The pipe section 5 can even be omitted completely. The length 33 of the tube section 1 of the tubular extension 22 should be at least as long as the length 32 of the wedge-shaped extension 7 . The length 32 of the wedge-shaped extension 7 should be at least 5 times the root of the cross-sectional area of the air supply line 30 .

Fig. 3 shows a variant of the embodiment of FIG. 1. Here, the tubular United extension 22 is designed as a deflection 4 , the tion 7 opens in the direction of flow in the expanse. The entire arrangement can be made here from a single part, for example a rectangular box, into which a separating web 23 is introduced and into which air is drawn in at the inlet 21 , which is transported through a rectangular cross section, through the deflection 4 flows and then flows, like that in a rectangular cross section, along the extensions 6 and 7 filled with sound-absorbing or sound-absorbing material 2 and 3 , in order then to flow into the mixture formation section 9 . Sound vibrations are hereby avoided in an ideal manner.

Another embodiment is shown in Fig. 4. Here, compared to the embodiment in Fig. 3, the more or less constant cross-section filled with sound-absorbing or sound-absorbing material extension 6 pulled over the deflection 4 in the direction of the inlet 21 , whereby a further improvement in vibration damping achieved becomes.

For the effect of the invention, the tubular extension 22 does not necessarily have to be straight, that is to say as a cylindrical tube. Rather, this can be designed as an elbow, spiral or the like and thus take on any shape. The same also applies to the extension 7 filled with sound-absorbing or sound-absorbing material. This can also be introduced into a bend, spiral, helix or other arcuate structure. It is only important to ensure that the wedge-shaped expansion filled with sound-absorbing or sound-absorbing material in the direction of flow of the air, that is to say in the direction of the mixture section 9, is reduced in cross section. The cross-sectional reduction does not have to be constant, that is, sections with a constant cross-section or even small enlargements may occur, provided that these do not destroy the wedge-shaped character as a whole. A wedge with a blunt tip is also possible, whereby the wedge character must be retained.

Fig. 5 shows a further variant, as it would put into practice. In order to be able to recognize the details better, the lid is not shown in this solution. The constant cross section of the tubular extension 22 and the separating web 23 can be seen very well.

Fig. 6 shows an embodiment in which individual wedge-shaped extensions 7 are pneumatically connected in series and between the extensions line pieces ke are connected with a constant cross-section.

The fuel-air mixture can either be gas (natural gas or LPG) or consist of oil mist (small droplets) combined with air.

The filled with sound-absorbing or sound-absorbing material 2 , 3 wedge-shaped extension 7 and extension 6 is designed so that the cross section of the air duct passing or passing through them is not impaired.

Claims (8)

1. Heater ( 18 ) with a housing ( 24 ) into which an air supply ( 30 ) and an exhaust gas discharge line ( 17 ) open, a fuel-air mixture section ( 9 ) to the air supply line, preferably with a fuel fitting hen, connects and the air supply line is provided on the input side with a tubular extension ( 22 ), characterized in that the air supply line ( 30 ) has a wedge-shaped section ( 7 ) which is at least partially filled with sound-absorbing or sound-absorbing material ( 2 ), the section of which tapered end is directed in the flow direction of the air supply line ( 30 ). 2. Heater ( 18 ) according to claim 1, characterized in that the wedge-like ge-shaped section ( 7 ) in its jacket is designed to decrease continuously or in small steps. 3. Heater ( 18 ) according to claim 1 or 2, characterized in that the conical extension ( 7 ) has at least one section ( 6 ) with a more or less constant cross section, which is partially filled with sound-absorbing material ( 3 ). 4. Heater ( 18 ) according to one of claims 1 to 3, characterized in that the wedge-shaped section ( 7 ) with a step by step increases the cross section of the air supply line ( 30 ) step ( 25 ), from which the cross section of the air supply line ( 30 ) decreases steadily. 5. Heater ( 18 ) according to one of claims 1 to 4, characterized in that distributed over the circumference of the air supply line ( 30 ), with interruptions, several re wedge-like cross-sectional enlargements are provided. 6. A heater ( 18 ) according to any one of claims 1 to 5, characterized in that a plurality of wedge-like cross-sectional enlargements are provided along the air supply line ( 30 ). 7. A heater ( 18 ) according to any one of claims 1 to 6, characterized in that upstream of the wedge-shaped extension ( 7 ) another pipe section ( 1 ) connects, the length ( 33 ) of which is at least the length ( 32 ) of the wedge-shaped extension ( 7 ) having. 8. Heater ( 18 ) according to one of claims 1 to 7, characterized in that the tube section ( 1 ) upstream of the wedge-shaped extension ( 7 ) is longer than the tube section ( 5 ) downstream of the wedge-shaped extension ( 7 ).